Course Objectives
The Course enables the students to
Course Outcomes(COs):
Learning outcomes (at course level) | Learning and teaching strategies | Assessment Strategies |
CO37. Define the concepts and operations of matrix algebra.
CO38. Understand the basic concepts of probability, statistics and graphs.
CO39. Demonstrate their understanding of concepts and apply methods in algorithmic design and analysis.
CO40. Examine the use of logical operators, propositions in different fields of computer science.
CO41. Evaluate and analyze the problem statistically.
CO42. Formulate the problem mathematically and design the solution. | Approach in teaching: Interactive Lectures, Discussion, Tutorials, Demonstration
Learning activities for the students: Self-learning assignments, Effective questions, Quizzes, Presentations, Discussions
| Assignments Written test in classroom Classroom activity Written test in classroom Semester End Examination |
Matrices, Rank of Matrix, Solving System of Equations, Inverse of a Matrix, Set theory, Principle of inclusion and exclusion, partitions, Permutation and Combination, Relations, Properties of relations, Matrices of relations, Closure operations on relations, Functions- injective, subjective and objective functions.
Probability Classical, relative frequency and axiomatic definitions of probability, addition rule and conditional probability, multiplication rule, total probability, Bayes’ Theorem and independence problems.
Introduction to Statistics- Population, Sample, Variable, Descriptive Statistics-Mean, Mode, Median, Measures of Spread- Range, Inter Quartile Range, Variance, Standard Deviation
Propositions and logical operators, Truth table, Propositions generated by a set, Equivalence and implication, Basic laws, Functionally complete set of connectives, Normal forms, Proofs in Propositional calculus, Predicate calculus.
Basic Concepts of Graphs, Sub graphs, Matrix Representation of Graphs: Adjacency Matrices, Incidence Matrices, Isomorphic Graphs, Paths and Circuits, Eulerian and Hamiltonian Graphs, Multigraphs, Planar Graphs, Euler‘s Formula, Spanning Trees.
· A.Tamilarasi & A.M.Natarajan, “Theory of Automata and Formal Languages”, New Age International Pvt Ltd Publishers, 2008.
· Juraj Hromkovic, “Theoretical Computer Science”, Springer Indian Reprint, 2010.
· David Makinson, “Sets, Logic and Maths for Computing”, Springer Indian Reprint, 2011.